Ectopic Expression of the Tetratricopeptide Repeat Domain of SPINDLY Causes Defects in Gibberellin Response

The SPINDLY (SPY) protein of Arabidopsis is a negative regulator of gibberellin (GA) response. The SPY protein has 10 copies of the tetratricopeptide repeat (TPR) at the N terminus. TPR motifs function as protein-protein interaction domains. Several spy alleles are affected only in the TPR region suggesting that protein-protein interactions mediated by this domain are important for proper GA signaling. We have used a reverse genetics approach to further investigate the role of the TPR domain. The TPR domain of SPY was overexpressed in wild-type, gai, and spy plants. Expression of the TPR domain alone is not sufficient to rescue spy mutants. Expression of the TPR domain in a wild-type background produces phenotypes similar to those caused by loss-of-function spy mutants including resistance to GA biosynthesis inhibitors, short hypocotyl length, and early flowering. The dwarfing of the floral shoot internodes caused by the gai mutation was suppressed by expression of the TRP domain. Expression of the TPR domain had no effect on the abundance of endogenous SPY mRNA. The TPR domain was found to interact with SPY both in vitro and in yeast two-hybrid assays. These data indicate that the TPR domain of SPY can participate in protein-protein interactions and that these interactions are important for the proper functioning of SPY.     

Ectopic Expression of the Drosophila Homeotic Gene Proboscipedia under Antennapedia P1 Control Causes Dominant Thoracic Defects

A deletion mutation in the Antennapedia Complex of Drosophila melanogaster, Df(3R)SCBXL2, induces both dominant and recessive loss-of-function phenotypes. The deletion is associated with diminished function of proboscipedia (pb), a homeotic gene required for mouthparts formation. Df(3R)SCBXL2 also has associated dominant thoracic defects related to diminished expression of the homeotic Antennapedia (Antp) gene copy on the homologous chromosome. This is shown to be a consequence of ectopic pb expression in the thorax. Newly juxtaposed Antp sequences provide the pb gene on the deletion bearing chromosome with a second promoter, Antp P1, in addition to its own. Ectopic pb protein expression occurs under Antp P1 control, by alternate splicing, and results in diminished accumulation of Antp protein in the imaginal disc cells where Antp P1 is normally expressed. The analysis of this mutant chromosome thus demonstrates that pb protein is capable of participating in the negative regulation of a more posteriorly expressed homeotic gene, as well as serving a homeotic "selector" function in the head.     

玉米性别决定的激素调控

玉米(Zea mays)属典型的雌雄异花植物, 单性花的形成经历了复杂的性别决定过程。通过雄穗小花和雌穗下位花的雌蕊原基以及雌穗小花雄蕊原基的选择性败育(或退化), 玉米最终形成正常的雌雄同株单性花。相关突变体的研究揭示, 玉米性别决定涉及选择性细胞死亡、细胞保护及信号转导等复杂的过程。其中, 植物激素信号的调控在玉米性别决定过程中处于核心地位。最近的研究表明, 赤霉素、细胞分裂素和茉莉酸类物质参与调控玉米性别决定过程。该文结合最新研究成果, 综述了植物激素在玉米性别决定中的作用及其调控途径, 同时提出了研究中存在的问题, 并对该领域未来的研究方向进行了展望。     

The Maize PI/GLO Ortholog Zmm16/sterile tassel silky ear1 Interacts with the Zygomorphy and Sex Determination Pathways in Flower Development

In monocots and eudicots, B class function specifies second and third whorl floral organ identity as described in the classic ABCE model. Grass B class APETALA3/DEFICIENS orthologs have been functionally characterized; here, we describe the positional cloning and characterization of a maize (Zea mays) PISTILLATA/GLOBOSA ortholog Zea mays mads16 (Zmm16)/sterile tassel silky ear1 (sts1). We show that, similar to many eudicots, all the maize B class proteins bind DNA as obligate heterodimers and positively regulate their own expression. However, sts1 mutants have novel phenotypes that provide insight into two derived aspects of maize flower development: carpel abortion and floral asymmetry. Specifically, we show that carpel abortion acts downstream of organ identity and requires the growth-promoting factor grassy tillers1 and that the maize B class genes are expressed asymmetrically, likely in response to zygomorphy of grass floral primordia. Further investigation reveals that floral phyllotactic patterning is also zygomorphic, suggesting significant mechanistic differences with the well-characterized models of floral polarity. These unexpected results show that despite extensive study of B class gene functions in diverse flowering plants, novel insights can be gained from careful investigation of homeotic mutants outside the core eudicot model species.     

黄瓜性别决定相关基因和性别表达机制

介绍黄瓜的性别决定相关基因,黄瓜性别决定的假说和性别决定的分子机制的研究进展.     

A Genetic Analysis of Hermaphrodite, a Pleiotropic Sex Determination Gene in Drosophila Melanogaster

Sex determination in Drosophila is controlled by a cascade of regulatory genes. Here we describe hermaphrodite (her), a new component of this regulatory cascade with pleiotropic zygotic and maternal functions. Zygotically, her(+) function is required for female sexual differentiation: when zygotic her(+) function is lacking, females are transformed to intersexes. Zygotic her(+) function may also play a role in male sexual differentiation. Maternally, her(+) function is needed to ensure the viability of female progeny: a partial loss of her(+) function preferentially kills daughters. In addition, her has both zygotic and maternal functions required for viability in both sexes. Temperature sensitivity prevails for all known her alleles and for all of the her phenotypes described above, suggesting that her may participate in an intrinsically temperature-sensitive process. This analysis of four her alleles also indicates that the zygotic and maternal components of of her function are differentially mutable. We have localized her cytologically to 36A3-36A11.     

玉米雌、雄穗与叶片内几种激素含量的比较

以甜玉米为材料,采用扫描电镜观察雌、雄花序发育过程,并用ＥＬＩＳＡ 和ＨＰＬＣ 检测雌、雄花序发育过程中内源激素（ｉＰＡｓ 、ＺＲｓ、ＤＨＺＲｓ、ＺＴ、ＩＡＡ、ＧＡ３） 和内源玉米赤霉烯酮（ｚｅａｒａｌｅｎｏｎｅ, ＺＥＮ） 含量,分析激素含量变化与玉米性别决定的关系。结果表明：玉米花序经过了无性、双性到单性的发育过程,在茎尖伸长和小穗原基突起时期,雄花序中内源ｉＰＡｓ、ＺＲｓ、ＧＡ３ 和ＺＥＮ 含量最高并高于雌花序;在玉米性别决定的关键时期,即花器官原基突起到雌、雄性器官选择退化阶段,雄花序中ｉＰＡｓ、ＺＲｓ、ＺＴ 和ＺＥＮ 含量明显增加并高于雌花序,此时在两种花序中的ＧＡ３ 含量差异不明显。正常果穗上、中、下不同部位果穗内源ｉＰＡｓ、ＺＲｓ、ＺＴ、ＧＡ３ 和ＺＥＮ 含量无明显差异,顶端小穗雄性化的果穗顶部内源ｉＰＡｓ、ＺＲｓ、ＺＴ、ＧＡ３ 和ＺＥＮ 含量急剧增加。这些结果说明高水平的细胞分裂素、ＧＡ３ 和ＺＥＮ 可能有利于玉米雄性器官的发育。     

Ectopic Expression of a Neospora caninum Kazal Type Inhibitor Triggers Developmental Defects in Toxoplasma and Plasmodium

Regulated proteolysis is known to control a variety of vital processes in apicomplexan parasites including invasion and egress of host cells. Serine proteases have been proposed as targets for drug development based upon inhibitor studies that show parasite attenuation and transmission blockage. Genetic studies suggest that serine proteases, such as subtilisin and rhomboid proteases, are essential but functional studies have proved challenging as active proteases are difficult to express. Proteinaceous Protease Inhibitors (PPIs) provide an alternative way to address the role of serine proteases in apicomplexan biology. To validate such an approach, a Neospora caninum Kazal inhibitor (NcPI-S) was expressed ectopically in two apicomplexan species, Toxoplasma gondii tachyzoites and Plasmodium berghei ookinetes, with the aim to disrupt proteolytic processes taking place within the secretory pathway. NcPI-S negatively affected proliferation of Toxoplasma tachyzoites, while it had no effect on invasion and egress. Expression of the inhibitor in P. berghei zygotes blocked their development into mature and invasive ookinetes. Moreover, ultra-structural studies indicated that expression of NcPI-S interfered with normal formation of micronemes, which was also confirmed by the lack of expression of the micronemal protein SOAP in these parasites. Our results suggest that NcPI-S could be a useful tool to investigate the function of proteases in processes fundamental for parasite survival, contributing to the effort to identify targets for parasite attenuation and transmission blockage.